在色散管理光纤中,基孤子脉冲司以被压缩。
The fundamental soliton can be compressed in dispersion-managed fibers.
本文研究了色散管理光纤中超短光脉冲的压缩效应。
The effect on pulse compression in dispersion managed fibers is studied.
针对两种不同的色散管理光纤,讨论了色散管理光纤中脉冲压缩机理和压缩效果。
The compression principle and the effect of pulse compression are analyzed in detail in two types of dispersion-managed fibers(zero total dispersion and nonzero total dispersion) .
并且分别对常规光纤、色散管理光纤以及色散位移光纤中光脉冲的压缩规律作了系统的研究。
We discussed systemically the rule of compression of pulses in conventional fibers, dispersion-managed fibers, and dispersion-shifted fibers.
该色散管理光纤对可以在无需色散补偿模块的前提下应用于大容量高速率的长距离波分复用(WDM)系统。
The dispersion managed pairs are applicable for large capacity, high bit-rate long-haul wavelength division multiplexing (WDM) transmission system without using dispersion compensation mode.
基于非线性耦合模方程,研究了非线性管理光纤光栅中的调制不稳定性,得到了调制不稳定性的色散关系。
Modulation instability in fiber grating with nonlinearity management is studied based on the nonlinear coupled-mode equations. The dispersion relation for modulation instability is obtained.
第二,根据得出的色散关系式,将非线性管理光纤光栅的增益谱特性与常规光栅进行了比较。
Secondly, from the new dispersion relation we get the gain spectrum for modulation instability in nonlinearity management fiber Bragg grating, and we compared it with normal nonlinear fiber grating.
第二,根据得出的色散关系式,将非线性管理光纤光栅的增益谱特性与常规光栅进行了比较。
Secondly, from the new dispersion relation we get the gain spectrum for modulation instability in nonlinearity management fiber Bragg grating, and we compared it with normal nonlinear fiber grating.
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